coherent optical radiation

简明释义

相干光辐射

英英释义

例句

1.Lasers emit coherent optical radiation, which means the light waves are in phase and can travel long distances without scattering.

激光发出相干光辐射，这意味着光波是同相的，可以在不散射的情况下长距离传播。

2.The coherent optical radiation produced by the laser enabled precise cutting in the manufacturing process.

激光产生的相干光辐射使制造过程中实现精确切割。

3.The use of coherent optical radiation in holography allows for the creation of three-dimensional images.

在全息摄影中使用相干光辐射可以创建三维图像。

4.In fiber optics, coherent optical radiation is crucial for maintaining signal integrity over long distances.

在光纤中，相干光辐射对于保持长距离信号完整性至关重要。

5.Scientists are researching the effects of coherent optical radiation on biological tissues for medical applications.

科学家正在研究相干光辐射对生物组织的影响，以用于医疗应用。

作文

Coherent optical radiation plays a crucial role in various fields of science and technology. This term refers to light that is both spatially and temporally coherent, meaning that the light waves are in phase both in space and time. One of the most common sources of coherent optical radiation (相干光辐射) is the laser. Lasers emit light that is highly focused and can travel long distances without scattering, making them invaluable in applications ranging from telecommunications to medical treatments. In telecommunications, coherent optical radiation (相干光辐射) is used in fiber optic communication systems. The ability of lasers to produce coherent light allows for the transmission of large amounts of data over long distances with minimal loss. This innovation has revolutionized how we communicate, enabling high-speed internet and global connectivity. Moreover, in the field of medicine, coherent optical radiation (相干光辐射) is utilized in various diagnostic and therapeutic procedures. For instance, laser surgery employs coherent optical radiation (相干光辐射) to precisely target tissues, minimizing damage to surrounding areas. This precision leads to quicker recovery times and less pain for patients. Additionally, techniques such as Optical Coherence Tomography (OCT) use coherent optical radiation (相干光辐射) to create detailed images of the retina, aiding in the early detection of eye diseases. The scientific understanding of coherent optical radiation (相干光辐射) has also paved the way for advancements in research. In physics, experiments involving coherent optical radiation (相干光辐射) have contributed to our knowledge of quantum mechanics and the behavior of light. Researchers utilize this property of light to explore fundamental questions about the universe, including studies on entanglement and the nature of photons. Furthermore, the development of technologies based on coherent optical radiation (相干光辐射) continues to expand. Innovations such as holography rely on the principles of coherence to create three-dimensional images. Holograms have applications in security, data storage, and even art. As our understanding of coherent optical radiation (相干光辐射) deepens, we can expect even more groundbreaking applications in the future. In conclusion, coherent optical radiation (相干光辐射) is a fundamental concept that underpins many modern technologies and scientific discoveries. Its unique properties enable advancements in communication, medicine, and research. As we continue to explore and harness the potential of coherent optical radiation (相干光辐射), we will undoubtedly uncover new ways to improve our lives and deepen our understanding of the world around us.

相干光辐射在科学和技术的多个领域中扮演着至关重要的角色。这个术语指的是空间和时间上都相干的光，意味着光波在空间和时间上都是同相的。激光是最常见的相干光辐射（coherent optical radiation）源之一。激光发射的光高度聚焦，可以在长距离内传播而不散射，这使得它们在从电信到医疗治疗的应用中变得不可或缺。在电信领域，相干光辐射（coherent optical radiation）被用于光纤通信系统。激光产生相干光的能力使得可以以最小的损失在长距离内传输大量数据。这一创新彻底改变了我们的沟通方式，使高速互联网和全球连接成为可能。此外，在医学领域，相干光辐射（coherent optical radiation）被应用于各种诊断和治疗程序。例如，激光手术利用相干光辐射（coherent optical radiation）精确定位组织，最小化对周围区域的损害。这种精确性导致患者恢复时间更快，疼痛更少。此外，像光学相干断层扫描（OCT）这样的技术使用相干光辐射（coherent optical radiation）创建视网膜的详细图像，有助于早期检测眼病。对相干光辐射（coherent optical radiation）的科学理解也为研究的进展铺平了道路。在物理学中，涉及相干光辐射（coherent optical radiation）的实验有助于我们对量子力学和光行为的认识。研究人员利用光的这一特性来探索关于宇宙的基本问题，包括对纠缠和光子的性质的研究。此外，基于相干光辐射（coherent optical radiation）技术的发展仍在扩展。全息术等创新依赖于相干的原理来创建三维图像。全息图在安全、数据存储甚至艺术中都有应用。随着我们对相干光辐射（coherent optical radiation）理解的加深，我们可以期待未来会有更多突破性的应用。总之，相干光辐射（coherent optical radiation）是支撑许多现代技术和科学发现的基本概念。其独特的属性使得在通信、医学和研究方面的进步成为可能。随着我们继续探索和利用相干光辐射（coherent optical radiation）的潜力，我们无疑会发现改善生活和加深对周围世界理解的新方法。